EP0533817A1 - Air circulation system - Google Patents

Air circulation system

Info

Publication number
EP0533817A1
EP0533817A1 EP91912054A EP91912054A EP0533817A1 EP 0533817 A1 EP0533817 A1 EP 0533817A1 EP 91912054 A EP91912054 A EP 91912054A EP 91912054 A EP91912054 A EP 91912054A EP 0533817 A1 EP0533817 A1 EP 0533817A1
Authority
EP
European Patent Office
Prior art keywords
air
core
filter
work station
chamber
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP91912054A
Other languages
German (de)
French (fr)
Other versions
EP0533817A4 (en
Inventor
George E. Mitchell
Michael H. Pelosi, Iii
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Centercore Inc
Original Assignee
Centercore Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Centercore Inc filed Critical Centercore Inc
Publication of EP0533817A1 publication Critical patent/EP0533817A1/en
Publication of EP0533817A4 publication Critical patent/EP0533817A4/en
Withdrawn legal-status Critical Current

Links

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F3/00Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems
    • F24F3/12Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling
    • F24F3/16Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling by purification, e.g. by filtering; by sterilisation; by ozonisation
    • F24F3/163Clean air work stations, i.e. selected areas within a space which filtered air is passed
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47BTABLES; DESKS; OFFICE FURNITURE; CABINETS; DRAWERS; GENERAL DETAILS OF FURNITURE
    • A47B2200/00General construction of tables or desks
    • A47B2200/06Desks with inlet and evacuation of air

Definitions

  • the invention relates to an improved air circulation system for workspace units, and particularly to workspace units which stand alone and which have a plurality of work stations centered about a center column or core.
  • U.S. Patent No. 4,625,633 in the name of Martin, is a commonly owned patent which describes a ventilated core unit for service connections.
  • Various prior art patents are disclosed in the Martin patent. The disclosure of all of those prior art patents may be summarized by the statement in the Martin patent that none of the prior art disclose the benefits of an independently controllable zone unit that is not attached to the building HVAC equipment by air ducts.
  • Martin correctly identifies a modern trend in office furniture and layout arrangements, in which small, semi-private working cubicles are created about a central core with multiple work stations and equipment emitting from that core.
  • the Martin design has been very successful in providing a central core unit which accomplishes both ventilating and utility connections for peripheral work spaces.
  • the principal basis upon which the Martin invention is founded is the use of a central core unit for local ventilating and also for providing utility connections to peripheral work spaces around the core.
  • the work spaces each are provided with electrical terminal devices and air inputs.
  • a work space fan is mounted in a side wall of the cabinet. That fan is operable under user control to draw air from the work space into the plenum defined by the walls of the cabinet. The air is then discharged to the common area directly above the workspace.
  • each core wall of core unit includes it own inlet fan which is adjustably controlled by the worker at each specific work station.
  • This fan does not directly control the exhaust air.
  • a worker must be present in order to control the use of the specific intake fan for each wall of the core.
  • the requirement of a separate fan for each core wall increases expense and complicates the assembly and maintenance of the system.
  • the environment directly centered about the core of the stand alone work space should have the best possible environment. Particularly, bacteria and smoke should be eliminated and the individual work stations should each function in the nature of a cleanroom.
  • the device should be simple and easy to maintain. Access to the interior of the column for maintenance of other equipment should be facilitated and should not be prevented by the design of the air flow system. Greatly improved efficiencies and the ability to provide virtually an envelope of clean air are objects of the present invention and are not found in the prior art.
  • the device includes a predetermined number of core walls which define an enclosed core.
  • Each of the core walls include an inlet vent at or below a predetermined height.
  • a platform means Positioned within the core at a location above the predetermined height is a platform means.
  • the platform substantially separates the core into a lower air intake chamber and an upper air discharge chamber.
  • the platform further includes filter means in the lower chamber.
  • the filter may include prefilter means which filter odor and/or large particles. Also included are air transfer means for drawing air from the intake chamber through the filter to the upper chamber.
  • the apparatus of the present invention includes core lid means, which is positioned at the top of the core defined by the core walls, to complete the enclosure of the air discharge chamber.
  • the core lid includes air discharge means in the form of side vent means proximate each of the core walls for discharging air in a substantially horizontal direction out from each of the core walls to form an envelope of air with the inlet.
  • the predetermined height is positioned sufficiently above a normal work surface so that the vent means is positionable above the normal work surface of a work station.
  • the platform is mounted in a position abutting all of the core walls to substantially prevent air flow between the intake chamber and the discharge chamber except through the filter means.
  • Specific filters are preferably those filters known as HEPA filters, which have a minimum efficiency of 99.97% of particles measured at 0.3 microns.
  • the core lid is assembled to direct air out horizontally through side vent means which may or may not include baffles to further direct the air in a horizontal direction. Because the side vent means is exhausting a significant volume of air horizontally and above the seated worker, and because all of the air in the system is drawn in to the vent means in the core walls, a person seated at the work station is surrounded or encapsulated by an envelope of air from which most of the particles 0.3 microns and larger have been removed. This envelope of air is effective as a cleanroom.
  • the apparatus of the present invention includes a single motor and blower mounted in the upper chamber.
  • the blower has sufficient capacity to provide up to about 30 air changes per hour for the region included in a thirteen foot circle having its axis at the center of the core.
  • This motor has a capacity rating of at least 300 cubic feet per minute. Other sizes and capacities are also useful.
  • the preferred embodiment of the present invention will include a prefilter means on the filter, which prefilter is suitable for removing odors and/or larger particulate from air passing through the filter means.
  • Activated charcoal and polyester filters may be used for these functions.
  • Fig. 1 is a side elevational view of the device of this invention in place in a multiple work unit.
  • Fig. 2 is a plan view of the multiple work station shown in Fig. 1.
  • Fig. 3 is an enlarged section view taken along lines 3-3 of Fig. 2.
  • Fig. 4 is a plan view, partially cut away and partially in section, of the center portion of the device of Fig. 3.
  • Fig. 5 is a greatly enlarged view of the portion in the circle shown in Fig. 3 and designated Fig. 5.
  • Fig. 6 is a sectional view taken along the lines 6- 6 of Fig. 5.
  • Fig. 7 is an enlarged view of the circle shown in Fig. 3 and designated Fig. 7.
  • Fig. 8 is an enlarged view similar to Fig. 3, showing an alternative, preferred embodiment.
  • Fig. 9 is a plan view, partially cut away and partially in section, of the center portion of the device of Fig. 8. BEST MODE FOR CARRYING OUT THE INVENTION
  • a workstation shown generally by the reference numeral 10 includes a plurality of radially extending side walls 11 which have top caps 13. Defining the particular workplaces are desk work surfaces 15 which allow for individual work spaces, shown generally in the figures. It should be noted that a variety of custom designed work spaces are available for various purposes such as accounting, word processing, general office work, light assembly, and other functions.
  • Each of the side walls 11 radiate from the ends of core walls 17 which together define a center core about which the work stations are centered. While a four sided core is shown in Fig. 2, it is to be appreciated that the number of core walls 17 can be varied from three or less to as many as eight or more sides. Each station is designed for the specific purposes of the consumer and the number of work spaces does not materially affect the present invention.
  • a core lid 19 or 20 Contained within the core defined by the core wall 17 and the core lid 19 or 20 are, in addition to the present invention, other equipment. For example, electrical controls and electrical power is often directed to the central core area and access to that power or electrical equipment is through the core walls 17. Depending upon the needs of the work station, water, air or other gases, and the like can be provided from the central core defined by the core walls 17. Also, various forms of communication devices can be routed through that central core area.
  • the air flow system of the present invention includes a top air grate 21 which is preferably formed in an egg crate design.
  • a top air grate 21 which is preferably formed in an egg crate design.
  • low cost polystyrene egg crate louvers are effective for use as the top air grates 21.
  • a solid core lid 20 shown in Fig. 8 and Fig. 9.
  • Air is taken into the central core area behind the core walls 17 through an intake vent 23. As will be described hereinafter, air is processed in the interior portion behind the walls 17 and is exhausted or expelled out of the core area through gaps 25 between the core wall 17 and the core lid 20. Gaps 25 are formed by spacers 27 which provide an elevation of the core lid 20 so that air is directed horizontally out over the top of the person in the work space.
  • the region defined by the core walls 17 is divided into an upper chamber and a lower chamber by a motor platform 29.
  • Platform 29 is mounted to the sidewalls by support brackets 31 and can be lifted out of the central core as needed.
  • a filter 33 mounted on the lower portion of motor platform 29, in the lower chamber, is a filter 33, shown as being held by wing nut 35.
  • Filter 33 is an exterior filter, such as would be useful for removing particulate and odor.
  • the outer filter 33 is intended to filter large particles and will trap odor when activated charcoal and/or other odor absorbing materials are employed.
  • a canister or other type air filter 37 which is known generally as a HEPA filter.
  • the motor platform 29 is positioned by brackets 31 at a point in the interior between walls 17 where the lower chamber is defined. This lower chamber receives air through intake vents 23 which, as shown in
  • Fig. 3 are positioned above the desk work space 15. Typically, smoke from ashtrays would be drawn in through the intake vent 23 as is all of the ambient air adjacent the worker in the work space. Vents 23 are the only source of air for the apparatus of the present invention.
  • Motor platform 29 also supports the motor 39 and its motor bracket 41 in a chamber above platform 29.
  • the chamber is enclosed by the platform 29, the core walls 17 and the core lid 19.
  • This motor 39 is the sole source of air movement. Filtered, clean and deodorized air is produced through as it passes filters 33 and 37 and is exhausted by motor 39 into the upper chamber above the platform 29.
  • the motor 39 is capable of moving at least 300 cubic feet per minute of air. When the device is operating at full capacity, it is possible to accomplish over 30 air changes per hour within a thirteen foot circle having its diameter at the center of the core.
  • FIG. 5 An alternative embodiment shown in greater detail in Fig. 5 provides a baffle 43 which, in the extended position shown in Fig. 5, helps to direct air against the under surface of the lid 19 of Fig. 3 or lid 20 of Fig. 8 and out through gap 25 in a horizontal direction out over each of the work stations. Baffle 43 is connected via linkage 45 to a pull handle 47. C clamp 49 holds the handle 47 in whatever location is desired.
  • baffle 43 Squeezing the two ends of C clamp 49 releases pressure on handle 47 and the location of baffle 43 can be changed, via linkage 45. If desirable, of course, the baffle can be pulled to a position which closes the gap 25 and no air is forced horizontally over that particular work station. Alternatively, a gap can be maximized as shown in Fig. 5. Of course, intermediate positions are also easily obtainable. Hinge 51 allows baffle 43 to move from one extreme to the other of its positions simply by adjusting the pull handle 47 and C clamp 49.
  • the region defined by the core walls 17 is again divided into an upper chamber and a lower chamber by a motor platform 29.
  • Platform 29 is mounted to the sidewalls by support brackets 31.
  • a filter assembly shown as being held by wing nut 35.
  • Filter 34 is an exterior filter, such as would be useful for removing particulate and may be made from polyester or other synthetic filter materials. Filter 34 is intended to filter large particles.
  • Filter 34 is another outer filter 33 which will trap odor when activated charcoal and/or other odor absorbing materials are employed.
  • a canister or other type air filter 37 known generally as a HEPA filter.
  • HEPA filters 37 are commercially available and have an efficiency of at least 99.97% at 0.3 microns, using a DOP test procedure.
  • the lower chamber receives air through intake vents 23 which, as also shown in Fig. 8, are positioned above the desk work space 15. All of the ambient air adjacent the worker in the work space enter vent 23. Vents 23 are the only source of air for the apparatus of the present invention.
  • Motor platform 29 also supports the motor 39 and its motor brackets 41 in a chamber above platform 29.
  • the chamber is enclosed by the platform 29, the core walls 17 and the core lid 20.
  • This motor 39 is the sole source of air movement. Filtered, clean and deodorized air is produced through as it passes filers 34, 33 and 37 and is exhausted by motor 39 into the upper chamber above the platform 29.
  • Air is discharged in a common plane which is generally horizontal so that substantially all of the air flows horizontally out through the gaps 25 between wall 17 and lid 20, defined by spacers 27. Air flowing through gaps 25 flows horizontally in a common plane away from the core wall 17. The air leaving the vent or gap 25 flows over the work station and is pulled down as air is drawn into the core through bent 23. This causes the formation of an air envelope which functions similar in nature to that of a cleanroom.
  • Fig. 9 shows solid core lid 20, whereas the arrows in Fig. 8 shows air flow in a common plane leaving the core after being pulled through inlet 23, particle filter
  • the envelope of air is clean filtered air.
  • the present invention addresses the concept of providing individual envelopes of clean, filtered air at each station to remove problems causing particles.
  • Tests were made to determine the efficacy of the present invention. Specifically, particulate matter was measured at an office for specific regions, using the system shown in the drawings. These results were compared with space where only HVAC systems were run. Particle count in all of these tests is measured as number of particles of 0.5 microns or larger per cubic foot of air. Presented below in TEST SERIES ONE are the results of some tests which show the achievement of surprising and superior results.
  • Adjacent rooms had counts on 11/29/90 and 11/30/90 of 464,110 and 418,420 for the first room and 614,120 and 220,680 for the second room.
  • the present invention was able to achieve a particle count under 100,000 for an office.
  • particle count for both the office and financial area were remarkedly reduced, again below 100,000 particles per cubic foot of air.
  • the present invention apparatus would be programed to operate at a rapid rate of at least 300 cubic feet per minute and would thereby accomplish at least 30 air changes per hour in the thirteen foot circle encompassing the present invention.
  • the rate of air change can be decreased to maintain a steady state of clean air so that 10 to 30 complete air changes per hour are accomplished.
  • each workspace becomes its own protected envelope of clean filtered air.
  • the core and filters form a source of air which reaches out over the core centered workspaces like an umbrella of protection.
  • the air flowing in the common plane forms the top of the umbrella, and as velocity is lost, becomes pulled down, enveloping the workplace, being drawn into vents 23.
  • a suitable blend of fresh and filtered air is achieved.
  • the system is easily accessible for repair or reconditioning. Simple removal of the access panel 57 allows access to both filters.
  • the prefilters 33 and 34 may be changed two or three times a year as part of routine maintenance. These prefilters extend the life of a HEPA filter which is recommended to be changed every two years. Of course, simply loosening wing nut 35 allows for quick removal of the HEPA filter 37 as well as for cleaning or replacement.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Ventilation (AREA)
  • Sorption Type Refrigeration Machines (AREA)

Abstract

Appareil destiné à être utilisé dans un espace de travail à stations multiples, comprenant un nombre prédéterminé de parois centrales (17) qui définissent un noyau central fermé. Les parois centrales (17) comportent une arrivée (23) à une hauteur prédéterminée ou en-deçà de ladite hauteur. L'appareil comprend une plate-forme (29), située dans le noyau central à une hauteur supérieure à la hauteur prédéterminée, qui sépare pratiquement le noyau central en une chambre inférieure d'aspiration de l'air et en une chambre supérieure d'évacuation de l'air. Ladite plate-forme comporte en outre un filtre (33) dans la chambre inférieure et un ventilateur aspirant qui dirige l'air de la chambre d'aspiration à travers le filtre dans la chambre supérieure. Enfin, un couvercle (20) est placé en haut du noyau central et comporte des orifices d'évacuation de l'air (25). Lesdits orifices d'évacuation (25) sont des orifices latéraux qui sont tous proches des parois centrales (17) de manière à évacuer de l'air dans une direction pratiquement horizontale à partir de chacune des parois centrales en vue de former une enveloppe d'air propre et filtré pour l'espace de travail.Apparatus for use in a multi-station workspace, comprising a predetermined number of central walls (17) which define a closed central core. The central walls (17) have an inlet (23) at a predetermined height or below said height. The apparatus comprises a platform (29), located in the central core at a height greater than the predetermined height, which substantially separates the central core into a lower air intake chamber and an upper air chamber. exhaust air. The platform further includes a filter (33) in the lower chamber and a suction fan which directs air from the suction chamber through the filter in the upper chamber. Finally, a cover (20) is placed at the top of the central core and has air discharge orifices (25). Said exhaust openings (25) are lateral openings which are all close to the central walls (17) so as to exhaust air in a substantially horizontal direction from each of the central walls in order to form an envelope of clean, filtered air for the workspace.

Description

AIR CIRCULATION SYSTEM TECHNICAL FIELD
The invention relates to an improved air circulation system for workspace units, and particularly to workspace units which stand alone and which have a plurality of work stations centered about a center column or core.
BACKGROUND ART
U.S. Patent No. 4,625,633, in the name of Martin, is a commonly owned patent which describes a ventilated core unit for service connections. Various prior art patents are disclosed in the Martin patent. The disclosure of all of those prior art patents may be summarized by the statement in the Martin patent that none of the prior art disclose the benefits of an independently controllable zone unit that is not attached to the building HVAC equipment by air ducts.
Martin correctly identifies a modern trend in office furniture and layout arrangements, in which small, semi-private working cubicles are created about a central core with multiple work stations and equipment emitting from that core. The Martin design has been very successful in providing a central core unit which accomplishes both ventilating and utility connections for peripheral work spaces.
The principal basis upon which the Martin invention is founded is the use of a central core unit for local ventilating and also for providing utility connections to peripheral work spaces around the core. The work spaces each are provided with electrical terminal devices and air inputs. A work space fan is mounted in a side wall of the cabinet. That fan is operable under user control to draw air from the work space into the plenum defined by the walls of the cabinet. The air is then discharged to the common area directly above the workspace.
No system is perfect, however, and several drawbacks have been encountered in the use of the Martin system. Specifically, the system is both assisted by and encumbered by the fact that it has a central column 30 which functions as a service conduit. This central core conduit makes it easy to supply power to the system. It also makes it significantly more difficult to remove the top 24 of the core for access to the internal mechanisms. In addition, mounting a filter 84 and fan 80 on the top 24 causes an imbalance unless the filter is centered. Of course, when a center conduit 30 is present, that cannot be accomplished. Alternatively, a plurality of fans 80 are required. In either case, difficulty in cleaning the filter 84 is significant because the center conduit is directly connected to top 24 of core unit 20.
Yet another difficulty which is experienced in prior art systems is that each core wall of core unit includes it own inlet fan which is adjustably controlled by the worker at each specific work station. This fan, however, does not directly control the exhaust air. A worker must be present in order to control the use of the specific intake fan for each wall of the core. In addition, of course, the requirement of a separate fan for each core wall increases expense and complicates the assembly and maintenance of the system.
Even though the Martin system is successful and provides many advantages to the users, that system is not capable of providing a complete, controlled environment which would be ideal under present day standards. Specifically, what is needed is a more efficient and effective way to transfer or treat the air within the region of all of the work stations about a central core workplace.
Ideally, the environment directly centered about the core of the stand alone work space should have the best possible environment. Particularly, bacteria and smoke should be eliminated and the individual work stations should each function in the nature of a cleanroom. In addition, the device should be simple and easy to maintain. Access to the interior of the column for maintenance of other equipment should be facilitated and should not be prevented by the design of the air flow system. Greatly improved efficiencies and the ability to provide virtually an envelope of clean air are objects of the present invention and are not found in the prior art.
DISCLOSURE OF THE INVENTION
It has now been discovered that these and objects of the present invention are accomplished in the following manner. Specifically, an apparatus for use with multi-station work spaces has been discovered. The device includes a predetermined number of core walls which define an enclosed core. Each of the core walls include an inlet vent at or below a predetermined height.
Positioned within the core at a location above the predetermined height is a platform means. The platform substantially separates the core into a lower air intake chamber and an upper air discharge chamber. The platform further includes filter means in the lower chamber. The filter may include prefilter means which filter odor and/or large particles. Also included are air transfer means for drawing air from the intake chamber through the filter to the upper chamber.
In addition, the apparatus of the present invention includes core lid means, which is positioned at the top of the core defined by the core walls, to complete the enclosure of the air discharge chamber. The core lid includes air discharge means in the form of side vent means proximate each of the core walls for discharging air in a substantially horizontal direction out from each of the core walls to form an envelope of air with the inlet.
Typically, the predetermined height is positioned sufficiently above a normal work surface so that the vent means is positionable above the normal work surface of a work station. The platform is mounted in a position abutting all of the core walls to substantially prevent air flow between the intake chamber and the discharge chamber except through the filter means. Specific filters are preferably those filters known as HEPA filters, which have a minimum efficiency of 99.97% of particles measured at 0.3 microns.
The core lid is assembled to direct air out horizontally through side vent means which may or may not include baffles to further direct the air in a horizontal direction. Because the side vent means is exhausting a significant volume of air horizontally and above the seated worker, and because all of the air in the system is drawn in to the vent means in the core walls, a person seated at the work station is surrounded or encapsulated by an envelope of air from which most of the particles 0.3 microns and larger have been removed. This envelope of air is effective as a cleanroom.
In its preferred form, the apparatus of the present invention includes a single motor and blower mounted in the upper chamber. The blower has sufficient capacity to provide up to about 30 air changes per hour for the region included in a thirteen foot circle having its axis at the center of the core. This motor has a capacity rating of at least 300 cubic feet per minute. Other sizes and capacities are also useful.
Finally, it is also contemplated that the preferred embodiment of the present invention will include a prefilter means on the filter, which prefilter is suitable for removing odors and/or larger particulate from air passing through the filter means. Activated charcoal and polyester filters may be used for these functions. BRIEF DESCRIPTION OF THE DRAWINGS
These and other objects of the present invention and the various features and details of the operation and construction thereof are hereinafter more fully set forth with reference to the accompanying drawings, where:
Fig. 1 is a side elevational view of the device of this invention in place in a multiple work unit.
Fig. 2 is a plan view of the multiple work station shown in Fig. 1.
Fig. 3 is an enlarged section view taken along lines 3-3 of Fig. 2.
Fig. 4 is a plan view, partially cut away and partially in section, of the center portion of the device of Fig. 3.
Fig. 5 is a greatly enlarged view of the portion in the circle shown in Fig. 3 and designated Fig. 5.
Fig. 6 is a sectional view taken along the lines 6- 6 of Fig. 5.
Fig. 7 is an enlarged view of the circle shown in Fig. 3 and designated Fig. 7.
Fig. 8 is an enlarged view similar to Fig. 3, showing an alternative, preferred embodiment.
Fig. 9 is a plan view, partially cut away and partially in section, of the center portion of the device of Fig. 8. BEST MODE FOR CARRYING OUT THE INVENTION
A workstation, shown generally by the reference numeral 10 includes a plurality of radially extending side walls 11 which have top caps 13. Defining the particular workplaces are desk work surfaces 15 which allow for individual work spaces, shown generally in the figures. It should be noted that a variety of custom designed work spaces are available for various purposes such as accounting, word processing, general office work, light assembly, and other functions.
Each of the side walls 11 radiate from the ends of core walls 17 which together define a center core about which the work stations are centered. While a four sided core is shown in Fig. 2, it is to be appreciated that the number of core walls 17 can be varied from three or less to as many as eight or more sides. Each station is designed for the specific purposes of the consumer and the number of work spaces does not materially affect the present invention.
At the top of the column defined by the core walls 17 is a core lid 19 or 20. Contained within the core defined by the core wall 17 and the core lid 19 or 20 are, in addition to the present invention, other equipment. For example, electrical controls and electrical power is often directed to the central core area and access to that power or electrical equipment is through the core walls 17. Depending upon the needs of the work station, water, air or other gases, and the like can be provided from the central core defined by the core walls 17. Also, various forms of communication devices can be routed through that central core area.
In one embodiment, the air flow system of the present invention includes a top air grate 21 which is preferably formed in an egg crate design. For example, low cost polystyrene egg crate louvers are effective for use as the top air grates 21. More preferred is a solid core lid 20, shown in Fig. 8 and Fig. 9.
Air is taken into the central core area behind the core walls 17 through an intake vent 23. As will be described hereinafter, air is processed in the interior portion behind the walls 17 and is exhausted or expelled out of the core area through gaps 25 between the core wall 17 and the core lid 20. Gaps 25 are formed by spacers 27 which provide an elevation of the core lid 20 so that air is directed horizontally out over the top of the person in the work space.
As is easily seen in Fig. 3, the region defined by the core walls 17 is divided into an upper chamber and a lower chamber by a motor platform 29. Platform 29 is mounted to the sidewalls by support brackets 31 and can be lifted out of the central core as needed. Mounted on the lower portion of motor platform 29, in the lower chamber, is a filter 33, shown as being held by wing nut 35. Filter 33 is an exterior filter, such as would be useful for removing particulate and odor. The outer filter 33 is intended to filter large particles and will trap odor when activated charcoal and/or other odor absorbing materials are employed. Inside the filter 33 is a canister or other type air filter 37 which is known generally as a HEPA filter. These HEPA filters 37 are commercially available and have an efficiency of at least 99.97% at 0.3 microns, using a DOP test procedure.
As is noted, the motor platform 29 is positioned by brackets 31 at a point in the interior between walls 17 where the lower chamber is defined. This lower chamber receives air through intake vents 23 which, as shown in
Fig. 3, are positioned above the desk work space 15. Typically, smoke from ashtrays would be drawn in through the intake vent 23 as is all of the ambient air adjacent the worker in the work space. Vents 23 are the only source of air for the apparatus of the present invention.
Motor platform 29 also supports the motor 39 and its motor bracket 41 in a chamber above platform 29. The chamber is enclosed by the platform 29, the core walls 17 and the core lid 19. This motor 39 is the sole source of air movement. Filtered, clean and deodorized air is produced through as it passes filters 33 and 37 and is exhausted by motor 39 into the upper chamber above the platform 29.
Some of the air in the upper chamber flows through the top grates 21 in a vertical direction while another major quantity of the air flows horizontally out through the gaps 25 defined by spacers 27. Air flowing through gaps 25 flows horizontally away from the core wall 17. The air leaving the vent or gap 25 flows over the work station and is pulled down as the air is drawn into the core through vent 23. This causes the formation of an air envelope which functions similar in nature to that of a cleanroom. In a preferred embodiment, the motor 39 is capable of moving at least 300 cubic feet per minute of air. When the device is operating at full capacity, it is possible to accomplish over 30 air changes per hour within a thirteen foot circle having its diameter at the center of the core.
It is recognized that not every worker requires or desires the same degree of air quality. Under some circumstances, it may be desirable to vary the amount of air which is forced by motor 39 up through the grates 21 in proportion to the amount of air exited through the gap 25 between the lid 19 and the wall 17. An alternative embodiment shown in greater detail in Fig. 5 provides a baffle 43 which, in the extended position shown in Fig. 5, helps to direct air against the under surface of the lid 19 of Fig. 3 or lid 20 of Fig. 8 and out through gap 25 in a horizontal direction out over each of the work stations. Baffle 43 is connected via linkage 45 to a pull handle 47. C clamp 49 holds the handle 47 in whatever location is desired. Squeezing the two ends of C clamp 49 releases pressure on handle 47 and the location of baffle 43 can be changed, via linkage 45. If desirable, of course, the baffle can be pulled to a position which closes the gap 25 and no air is forced horizontally over that particular work station. Alternatively, a gap can be maximized as shown in Fig. 5. Of course, intermediate positions are also easily obtainable. Hinge 51 allows baffle 43 to move from one extreme to the other of its positions simply by adjusting the pull handle 47 and C clamp 49.
In the preferred embodiment shown in Fig. 8, the region defined by the core walls 17 is again divided into an upper chamber and a lower chamber by a motor platform 29. Platform 29 is mounted to the sidewalls by support brackets 31. Mounted on the lower portion of motor platform 29, in the lower chamber, is a filter assembly shown as being held by wing nut 35. Filter 34 is an exterior filter, such as would be useful for removing particulate and may be made from polyester or other synthetic filter materials. Filter 34 is intended to filter large particles. Inside filter 34 is another outer filter 33 which will trap odor when activated charcoal and/or other odor absorbing materials are employed. Inside the filter 33 is a canister or other type air filter 37, known generally as a HEPA filter. These HEPA filters 37 are commercially available and have an efficiency of at least 99.97% at 0.3 microns, using a DOP test procedure. As has been noted, the lower chamber receives air through intake vents 23 which, as also shown in Fig. 8, are positioned above the desk work space 15. All of the ambient air adjacent the worker in the work space enter vent 23. Vents 23 are the only source of air for the apparatus of the present invention.
Motor platform 29 also supports the motor 39 and its motor brackets 41 in a chamber above platform 29. The chamber is enclosed by the platform 29, the core walls 17 and the core lid 20. This motor 39 is the sole source of air movement. Filtered, clean and deodorized air is produced through as it passes filers 34, 33 and 37 and is exhausted by motor 39 into the upper chamber above the platform 29.
Air is discharged in a common plane which is generally horizontal so that substantially all of the air flows horizontally out through the gaps 25 between wall 17 and lid 20, defined by spacers 27. Air flowing through gaps 25 flows horizontally in a common plane away from the core wall 17. The air leaving the vent or gap 25 flows over the work station and is pulled down as air is drawn into the core through bent 23. This causes the formation of an air envelope which functions similar in nature to that of a cleanroom.
Fig. 9 shows solid core lid 20, whereas the arrows in Fig. 8 shows air flow in a common plane leaving the core after being pulled through inlet 23, particle filter
34, odor filer 33 and HEPA filter 37. Outside the core, the envelope of air is clean filtered air.
The present invention addresses the concept of providing individual envelopes of clean, filtered air at each station to remove problems causing particles. Tests were made to determine the efficacy of the present invention. Specifically, particulate matter was measured at an office for specific regions, using the system shown in the drawings. These results were compared with space where only HVAC systems were run. Particle count in all of these tests is measured as number of particles of 0.5 microns or larger per cubic foot of air. Presented below in TEST SERIES ONE are the results of some tests which show the achievement of surprising and superior results.
TEST SERIES 1
As can be seen, more than an order of magnitude of improvement was achieved by the use of the present invention. Adjacent rooms had counts on 11/29/90 and 11/30/90 of 464,110 and 418,420 for the first room and 614,120 and 220,680 for the second room. Remarkedly, the present invention was able to achieve a particle count under 100,000 for an office.
Similar tests were made in several offices in a hospital. Again the comparison is between ordinary HVAC and the present invention for particle count as defined above.
TEST SERIES II
Room/System Date Particle Count
Hospital Hall/HVAC 12/07/90 367,220
Hospital Hall/HVAC 12/12/90 707,590
Library/HVAC 12/07/90 126,350
Library/HVAC 12/12/90 640,610
Office/Present Invention 12/07/90 29,580 Office/Present Invention 12/12/90 31,390
Financial Area/ 12/07/90 33,500
Present Invention
Financial Area/ 12/12/90 41,350 Present Invention
As can be seen from the data above, particle count for both the office and financial area were remarkedly reduced, again below 100,000 particles per cubic foot of air. The importance of reducing particle count, whatever their level is seen in the correlation between particle count and "Sick Building Syndrome" where high sickness and/or absenteeism is caused by high particle count.
Programming the rate of air movement can provide a substantial increase in air quality. Accordingly, the present invention apparatus would be programed to operate at a rapid rate of at least 300 cubic feet per minute and would thereby accomplish at least 30 air changes per hour in the thirteen foot circle encompassing the present invention. As the employees report for work, the rate of air change can be decreased to maintain a steady state of clean air so that 10 to 30 complete air changes per hour are accomplished.
Under appropriate conditions, it has been shown to be possible to obtain a class 100,000 reading for an office, which is highly desirable for health reasons as well as insurance ratings. Properly operated, the present system reduces bacteria and cuts total particle count by a significant factor.
Another important factor is that each workspace becomes its own protected envelope of clean filtered air. In effect, the core and filters form a source of air which reaches out over the core centered workspaces like an umbrella of protection. The air flowing in the common plane forms the top of the umbrella, and as velocity is lost, becomes pulled down, enveloping the workplace, being drawn into vents 23. A suitable blend of fresh and filtered air is achieved.
The system is easily accessible for repair or reconditioning. Simple removal of the access panel 57 allows access to both filters. The prefilters 33 and 34 may be changed two or three times a year as part of routine maintenance. These prefilters extend the life of a HEPA filter which is recommended to be changed every two years. Of course, simply loosening wing nut 35 allows for quick removal of the HEPA filter 37 as well as for cleaning or replacement.
While particular embodiments of the present invention have been illustrated and described herein, it is not intended to limit the invention and changes and modifications may be made therein within the scope of the following claims.

Claims

CLAIMSWhat is claimed is:
1. A work station array including at least one workspace defined in part by side walls, comprising:
an enclosed core associated with said work station array and including air inlet means for drawing air into said core at or below a predetermined height and having means for circulating and filtering air through said core; and
air discharge means at the upper end of said core for discharging air solely in a predetermined common plane out from said core and at a distance above said height to cooperatively form an envelope of filtered air surrounding a space defined (i) in part by said side walls and said core wall, and (ii) in part by air flow out of said air discharge means and into said air inlet means, whereby an individual in said workspace is enclosed in filtered air.
2. The array of claim 1 where said core has a solid core top directing all of said air to said air discharge means.
3. The array of claim 2 wherein said air filter means includes a HEPA filter.
4. The array of claim 2 which further includes spacing means for elevating said core top above the core walls by a distance sufficient to define said air discharge means.
5. The apparatus of claim 4 wherein said air circulating and filtering means includes a blower having sufficient capacity to provide approximately thirty air changes per hour for the region included by a thirteen foot circle having its axis at the center of said core.
6. The apparatus of claim 5 wherein said blower has at least a 300 cubic feet per minute rating.
7. The apparatus of claim 6 wherein said blower is the sole air moving means for circulating air through said enclosed core.
8. The apparatus of claim 1 wherein said means for circulating and filtering air includes a first prefilter means for removing larger particulates from the air and further includes a second prefilter means for removing odors from the air.
9. A method for providing a clean air workspace for individuals, comprising the steps of:
forming a work station core and providing side walls extending from said core to define in part at least one work station, said core having an air inlet at or below a predetermined height;
filtering air in said core through filter means to provide clean air in said core; and
discharging said clean air from said core from air discharge means solely in a predetermined common plane above said height and proximate the top of said core to provide an envelope of air from said air discharge means out over said workspace and into said air inlet to further define in part said work station.
10. The method of claim 9, wherein said core has a solid core top directing substantially directing all of said air to said air discharge means.
11. The method of claim 10 wherein said filter means includes a HEPA filter.
12. The method of claim 11 wherein said air is discharged to provide approximately thirty air changes per hour for the region included by a thirteen foot circle having its axis at the center of said core.
13. The apparatus of claim 12 wherein said air is discharged with a blower having at least a 300 cubic feet per minute rating.
14. The method of claim 12 including prefiltering air in said core to remove larger particulates from air prior to discharging said air.
15. The method of claim 14 including prefiltering air in said core to remove odors prior to discharging said air.
16. An apparatus for use with a workspace comprising:
a plurality of core walls defining an enclosed core, said core walls including air inlet means at or below a predetermined height;
platform means positioned in said core at a location above said predetermined height and including a platform substantially separating said core into a lower air intake chamber and an upper air discharge chamber, said platform further including filter means in said lower chamber and air transfer means for drawing air from said intake chamber through said filter to said upper chamber; and
core lid means positioned at the top of said core and including air discharge means, said discharge means including side vent means proximate each of said core walls for discharging air in a substantially horizontal direction out from each of said core walls, and further including individual baffle means on each core wall for directing air out of said side vent means.
17. The apparatus of claim 16 wherein said inlet means in said core walls is positioned above a typical work surface location by selecting said predetermined height sufficiently above a normal working surface height.
18. The apparatus of claim 16 wherein said core walls include support means for mounting said platform means in a position abutting all of said core walls to substantially prevent air flow between said intake chamber and said discharge chamber except through said filter means.
19. The apparatus of claim 16 wherein said filter means includes a HEPA filter.
20. The apparatus of claim 16 wherein said baffle means includes individual baffles means mounted on said core lid and positioned adjacent each of said core walls.
21. The apparatus of claim 16 which further includes core lid leg means for elevating said lid above said wall by a distance sufficient to define said side vent means.
22. The apparatus of claim 16 wherein said air transfer means includes a blower mounted in said upper chamber.
23. The apparatus of claim 22 wherein said blower has sufficient capacity to provide approximately thirty air changes per hour for the region included by a thirteen foot circle having its axis at the center of said core.
24. The apparatus of claim 23.wherein said blower has at least a 300 cubic feet per minute rating.
25. The apparatus of claim 22 wherein said blower is the sole air moving means causing air to enter and exit said enclosed core.
26. The apparatus of claim 16 wherein said filter means includes prefilter means for removing larger particulate from the air passing through said filter means.
27. The apparatus of claim 16 wherein said filter means includes a prefilter means for removing odors from the air passing through said filter means.
28. In a work station array including at least one workspace defined in part by side walls and core wall, the apparatus comprising: an enclosed core associated with said work station array and including air inlet means; means dividing said core into a lower air intake chamber and an upper air discharge chamber, air filter means in said lower air intake chamber and air transfer means for drawing air from said lower air intake chamber through said air filter means to said upper air discharge chamber; and
air discharge control means at the upper end of said upper air discharge chamber for discharging air in a predetermined controlled direction to cooperatively form an envelope of filtered air surrounding a space defined in part by said side walls and said core wall and in part by air flow out of said air discharge control means and into said air inlet means, whereby an individual in said work station is enclosed in filtered air.
29. The apparatus of claim 28 wherein said air filter means includes a HEPA filter.
30. The apparatus of claim 28 which further includes spacing means for elevating a portion of said core above the core walls by a distance sufficient to define said air discharge means.
31. The apparatus of claim 30 which further includes baffle means for directing air out of said air discharge means.
32. The apparatus of claim 28 wherein said air circulating and filtering means includes a blower having sufficient capacity to provide approximately thirty air changes per hour for the region included by a thirteen foot circle having its axis at the center of said core.
33. The apparatus of claim 32 wherein said blower has at least a 300 cubic feet per minute rating.
34. The apparatus of claim 33 wherein said blower is the sole air moving means for circulating air through said enclosed core.
35. The apparatus of claim 28 wherein said means for circulating and filtering air includes a first prefilter means for removing larger particulates from the air and further includes a second prefilter means for removing odors from the air.
36. A method for providing a clean air workspace for individuals, comprising the steps of:
forming a work station core with a plurality of core walls and providing side walls extending from at least one said core wall to define in part at least one work station, said at least one said core wall having an air inlet at or below a predetermined height;
dividing said work station core at said height into a lower air intake chamber and an upper air discharge chamber, and transferring air from said lower air intake chamber to said upper air discharge chamber through filter means to provide clean air in said upper air discharge chamber; and
discharging said clean air from said upper air discharge chamber from vent means proximate the top of said core wall to provide an envelope of air from said vent means out over said workspace and into said air inlet to further define in part said work station.
37. The method of claim 36 wherein said filter means includes a HEPA filter.
38. The method of claim 36 wherein said air is discharged to provide approximately thirty air changes per hour for the region included by a thirteen foot circle having its axis at the center of said core.
39. The method of claim 38 wherein said air is discharged with a blower having at least a 300 cubic feet per minute rating.
40. The method of claim 36 including prefiltering air in said core to remove larger particulates from air prior to discharging said air.
41. The method of claim 36 including prefiltering air in said core to remove odors prior to discharging said air.
42. A work station array including at least one workspace defined in part by side walls, comprising:
an enclosed core associated with said work station array and including air inlet means for drawing air into said core at or below a predetermined height and having means for circulating and filtering air through said core; and
air discharge means proximate the upper end of said core for discharging air in a predetermined controlled direction and at a distance above said height to cooperatively form an envelope of filtered air surrounding a space defined (i) in part by said side walls and said core wall, and (ii) in part by air flow out of said air discharge means and into said air inlet means, whereby an individual in said workspace is enclosed in filtered air.
43. A method for providing a clean air workspace dividuals, comprising the steps of:
forming a work station core and providing side walls extending from said core to define in part at least one work station, said core having an air inlet at or below a predetermined height;
filtering air in said core through filter means to provide clean air in said core; and
discharging said clean air from said core from air discharge means above said height and proximate the top of said core to provide an envelope of air from said air discharge means out over said workspace and into said air inlet to further define in part said work station.
EP19910912054 1990-06-11 1991-06-06 Air circulation system Withdrawn EP0533817A4 (en)

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US07/536,179 US5065668A (en) 1990-06-11 1990-06-11 Air circulation system
US536179 1990-06-11

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EP0533817A1 true EP0533817A1 (en) 1993-03-31
EP0533817A4 EP0533817A4 (en) 1993-06-23

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JP (1) JPH05507790A (en)
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JPH05507790A (en) 1993-11-04
AU654283B2 (en) 1994-11-03
US5180332A (en) 1993-01-19
US5065668A (en) 1991-11-19
AU8076991A (en) 1992-01-07
WO1991019945A1 (en) 1991-12-26
CA2085107A1 (en) 1991-12-12
EP0533817A4 (en) 1993-06-23

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